Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.

Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.

Heading date is an important agronomic trait in rice (Oryza sativa L.); it determines the geographical and seasonal adaptability of the crop. Single segment substitution lines (SSSLs) have become the preferred experimental materials in mapping functional genetic variations as the particular chromoso...

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Main Authors: Hua Zhang, Shuyi Liu, Gao Chen, Xu Liu, Ning Xuan, Yongyi Yang, Wei Liu, Hanfeng Ding, Fangyin Yao
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5752018?pdf=render
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spelling doaj-80dd63914cdc4ceeb4df18b88d8adf602020-11-25T02:29:05ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01131e019049110.1371/journal.pone.0190491Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.Hua ZhangShuyi LiuGao ChenXu LiuNing XuanYongyi YangWei LiuHanfeng DingFangyin YaoHeading date is an important agronomic trait in rice (Oryza sativa L.); it determines the geographical and seasonal adaptability of the crop. Single segment substitution lines (SSSLs) have become the preferred experimental materials in mapping functional genetic variations as the particular chromosome segments from donor genotypes can be evaluated for their impact on the phenotype in a recurrent recipient background. The phenotypic differences can be attributed to the control of quantitative trait loci (QTLs). Here, we evaluated a library consisting of 1,123 SSSLs in the same genetic background of an elite rice variety, Huajingxian74 (HJX74), and revealed four SSSLs, W05-1-11-2-7-6 (W05), W08-16-3-2 (W08), W12-28-58-03-19-1 (W12), and W22-9-5-2-4-9-3 (W22), which had a significantly different heading date compared to HJX74. To further genetically dissect the QTLs controlling heading date on chromosomes 3, 6, and 10, four SSSLs were used to develop 15 secondary SSSLs with the smaller substituted segments. The qHD-3 heading date QTL detected in W05 and W08 was delimited to an interval of 4.15 cM, whereas qHD-6-1 and qHD-6-2 heading date QTLs dissected from the substituted segments in W12 were mapped to the intervals of 2.25-cM and 2.55-cM, respectively. The qHD-10 QTL detected on the substituted segment in W22 was mapped to an interval of 6.85-cM. The nucleotide and amino acid sequence changes for those genes in the secondary SSSLs were also revealed. The allele variations of those genes might contribute to the heading date QTLs on chromosome 3 (DTH3, OsDof12, and EHD4), chromosome 6 (Hd3a, Hd17, and RFT1), and chromosome 10 (Ehd1 and Ehd2). These sequence variations in heading date genes would be useful resources for further studying the function of genes, and would be important for rice breeding. Overall, our results indicate that secondary SSSLs were powerful tools for genetic dissection of QTLs and identification of differentiation in the genes.http://europepmc.org/articles/PMC5752018?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Hua Zhang
Shuyi Liu
Gao Chen
Xu Liu
Ning Xuan
Yongyi Yang
Wei Liu
Hanfeng Ding
Fangyin Yao
spellingShingle Hua Zhang
Shuyi Liu
Gao Chen
Xu Liu
Ning Xuan
Yongyi Yang
Wei Liu
Hanfeng Ding
Fangyin Yao
Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.
PLoS ONE
author_facet Hua Zhang
Shuyi Liu
Gao Chen
Xu Liu
Ning Xuan
Yongyi Yang
Wei Liu
Hanfeng Ding
Fangyin Yao
author_sort Hua Zhang
title Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.
title_short Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.
title_full Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.
title_fullStr Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.
title_full_unstemmed Genetic dissection of QTLs and differentiation analysis of alleles for heading date genes in rice.
title_sort genetic dissection of qtls and differentiation analysis of alleles for heading date genes in rice.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2018-01-01
description Heading date is an important agronomic trait in rice (Oryza sativa L.); it determines the geographical and seasonal adaptability of the crop. Single segment substitution lines (SSSLs) have become the preferred experimental materials in mapping functional genetic variations as the particular chromosome segments from donor genotypes can be evaluated for their impact on the phenotype in a recurrent recipient background. The phenotypic differences can be attributed to the control of quantitative trait loci (QTLs). Here, we evaluated a library consisting of 1,123 SSSLs in the same genetic background of an elite rice variety, Huajingxian74 (HJX74), and revealed four SSSLs, W05-1-11-2-7-6 (W05), W08-16-3-2 (W08), W12-28-58-03-19-1 (W12), and W22-9-5-2-4-9-3 (W22), which had a significantly different heading date compared to HJX74. To further genetically dissect the QTLs controlling heading date on chromosomes 3, 6, and 10, four SSSLs were used to develop 15 secondary SSSLs with the smaller substituted segments. The qHD-3 heading date QTL detected in W05 and W08 was delimited to an interval of 4.15 cM, whereas qHD-6-1 and qHD-6-2 heading date QTLs dissected from the substituted segments in W12 were mapped to the intervals of 2.25-cM and 2.55-cM, respectively. The qHD-10 QTL detected on the substituted segment in W22 was mapped to an interval of 6.85-cM. The nucleotide and amino acid sequence changes for those genes in the secondary SSSLs were also revealed. The allele variations of those genes might contribute to the heading date QTLs on chromosome 3 (DTH3, OsDof12, and EHD4), chromosome 6 (Hd3a, Hd17, and RFT1), and chromosome 10 (Ehd1 and Ehd2). These sequence variations in heading date genes would be useful resources for further studying the function of genes, and would be important for rice breeding. Overall, our results indicate that secondary SSSLs were powerful tools for genetic dissection of QTLs and identification of differentiation in the genes.
url http://europepmc.org/articles/PMC5752018?pdf=render
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